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Journal Abstract Search

211 related items for PubMed ID: 29276509

  • 1. Anti-biofilm Properties of Bacterial Di-Rhamnolipids and Their Semi-Synthetic Amide Derivatives.
    Aleksic I, Petkovic M, Jovanovic M, Milivojevic D, Vasiljevic B, Nikodinovic-Runic J, Senerovic L.
    Front Microbiol; 2017; 8():2454. PubMed ID: 29276509
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  • 3. Rapid and solitary production of mono-rhamnolipid biosurfactant and biofilm inhibiting pyocyanin by a taxonomic outlier Pseudomonas aeruginosa strain CR1.
    Sood U, Singh DN, Hira P, Lee JK, Kalia VC, Lal R, Shakarad M.
    J Biotechnol; 2020 Jan 10; 307():98-106. PubMed ID: 31705932
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  • 4. Oxygen effects on rhamnolipids production by Pseudomonas aeruginosa.
    Zhao F, Shi R, Ma F, Han S, Zhang Y.
    Microb Cell Fact; 2018 Mar 09; 17(1):39. PubMed ID: 29523151
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  • 9. Characterization of Pseudomonas sp. TMB2 produced rhamnolipids for ex-situ microbial enhanced oil recovery.
    Haloi S, Sarmah S, Gogoi SB, Medhi T.
    3 Biotech; 2020 Mar 09; 10(3):120. PubMed ID: 32117681
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  • 11. Genome mining of Pseudomonas spp. hints towards the production of under-pitched secondary metabolites.
    Shahid I, Han J, Hanook S, Borchers CH, El Enshasy HA, Mehnaz S.
    3 Biotech; 2023 Jun 09; 13(6):182. PubMed ID: 37193329
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  • 13. Structural characterization of a rhamnolipid-type biosurfactant produced by Pseudomonas aeruginosa MR01: enhancement of di-rhamnolipid proportion using gamma irradiation.
    Lotfabad TB, Abassi H, Ahmadkhaniha R, Roostaazad R, Masoomi F, Zahiri HS, Ahmadian G, Vali H, Noghabi KA.
    Colloids Surf B Biointerfaces; 2010 Dec 01; 81(2):397-405. PubMed ID: 20732795
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  • 15. Comparison of mono-rhamnolipids and di-rhamnolipids on microbial enhanced oil recovery (MEOR) applications.
    Rocha VAL, de Castilho LVA, de Castro RPV, Teixeira DB, Magalhães AV, Gomez JGC, Freire DMG.
    Biotechnol Prog; 2020 Jul 01; 36(4):e2981. PubMed ID: 32083814
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  • 16. Synthetic analogs of rhamnolipids modulate structured biofilms formed by rhamnolipid-nonproducing mutant of Pseudomonas aeruginosa.
    Zheng H, Singh N, Shetye GS, Jin Y, Li D, Luk YY.
    Bioorg Med Chem; 2017 Mar 15; 25(6):1830-1838. PubMed ID: 28236509
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  • 17. Rhamnolipids from Pseudomonas aeruginosa strain W10; as antibiofilm/antibiofouling products for metal protection.
    Chebbi A, Elshikh M, Haque F, Ahmed S, Dobbin S, Marchant R, Sayadi S, Chamkha M, Banat IM.
    J Basic Microbiol; 2017 May 15; 57(5):364-375. PubMed ID: 28156000
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  • 18. Development and validation of an ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) method for the quantitative determination of rhamnolipid congeners.
    Rudden M, Tsauosi K, Marchant R, Banat IM, Smyth TJ.
    Appl Microbiol Biotechnol; 2015 Nov 15; 99(21):9177-87. PubMed ID: 26272088
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  • 19. Structural and Physicochemical Characterization of Rhamnolipids produced by Pseudomonas aeruginosa P6.
    El-Housseiny GS, Aboshanab KM, Aboulwafa MM, Hassouna NA.
    AMB Express; 2020 Nov 04; 10(1):201. PubMed ID: 33146788
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  • 20. Emulsifying Properties of Rhamnolipids and Their In Vitro Antifungal Activity against Plant Pathogenic Fungi.
    Li D, Tao W, Yu D, Li S.
    Molecules; 2022 Nov 10; 27(22):. PubMed ID: 36431843
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